一种改进的云评估方法

在现有云评估方法的基础上,将云概念化和逆向云发生器引入其中,对原有评估方法进行改进。利用改进后的评估方法对C4ISR系统效能进行评估,使评语的各个数字特征由训练数据得到而非人为确定,进一步消除了评估过程的主观性。     

无线传感器网络在环境监测中的应用

低成本、低功耗、自组网的无线传感器网络近年来得到快速发展.对近年来无线传感器网络在环境监测中的应用进展进行系统综述,对国内外各研究小组的研究成果进行对比和分析,最后对无线传感器网络的发展进行总结和展望.     

具有脉冲和Holling IV类功能反应的三维捕食系统

建立了在固定时刻具有脉冲效应的三维捕食系统,利用常微分方程比较原理、含脉冲的比较原理及Lyapunov函数方法,得到了该系统的持续生存性、周期解的存在唯一性和全局吸引性,并给出了保持这些性质时脉冲项应满足的界限。     

群众路线:中国共产党的根本路线

群众路线是我们党创造性地运用马克思主义的群众观点创立的根本路线,是我们党的优良传统和政治优势.新形势下坚持群众路线,是巩固党的执政地位的必然要求,是推进中国特色社会主义宏伟事业的强大动力,是构建社会主义和谐社会的重要因素,是党的执政能力建设和作风建设的核心所在.当前要结合人民群众的新特点,探索坚持群众路线的新规律;着眼人民群众的新诉求,拓展坚持群众路线的新载体;汲取人民群众的新创见,丰富坚持群众路线的新形式,不断开创坚持群众路线的新局面.     

复杂电磁环境下电子系统仿生防护模式研究

阐述电磁防护工作中仿生研究所需要涉及的学科类型和基本内容,对所做工作在整个仿生领域中进行大致的定位;提出生物一电子研究的对等模型、总体构成和实现基础,细化具体研究的方向、设想和防护模式,并从原型实现的工程角度介绍实施策略,使得复杂电磁干扰环境下控制系统板卡及芯片级防护的仿生构想在技术上成为可能。     

基于不确定度的专家评价综合方法

针对群决策中专家评价信息的综合处理问题,应用多位专家评价的评价样本不确定度,提出了基于不确定度的数据综合处理方法。该方法能够有效应用于群决策问题,尤其是参与决策人员(专家)较多时,出现专家相对权重可信度不明确而导致评价准确度低的问题,科学地简化了群决策中专家权重的确定过程,便于应用,具有坚实的理论依据和应用价值。通过算例分析,该方法的有效性得到了验证。     

武器平台信息系统现场可更换单元划分方法

针对功能综合化发展背景下的综合模块化武器平台信息系统综合化程度高、功能复杂,不便于维修保障等问题,采用功能/硬件资源的模糊聚类、多重模糊有向图等方法进行武器平台信息系统LRU划分,划分了通用处理模块、信号处理模块、图形图像处理模块、网络交换模块和电源变换模块等LRU.通过项目应用表明,该方法可显著缩短现场可更换时间,提高武器平台信息系统维修保障能力和"通用化、系列化、组合化"水平.     

无人机位置欺骗诱导策略

针对"黑飞"无人机的有效管控及处置问题,提出基于卫星导航定位位置欺骗的无人机诱导策略。结合目标无人机的精确位置信息,利用生成式导航欺骗干扰技术向目标发射虚假的卫星导航定位信号,使目标无人机飞行控制系统得到错误的位置信息,改变飞行姿态,进而偏离预设运动轨迹。通过无人机诱导试验验证了所提策略的正确性和有效性。     

Multi-objectives nonlinear structure optimization for actuator in trajectory correction fuze subject to high impact loadings

This paper presents an actuator used for the trajectory correction fuze, which is subject to high impact loadings during launch. A simulation method is carried out to obtain the peak-peak stress value of each component, from which the ball bearings are possible failures according to the results. Subsequently, three schemes against impact loadings, full-element deep groove ball bearing and integrated raceway, needle roller thrust bearing assembly, and gaskets are utilized for redesigning the actuator to effectively reduce the bearings' stress. However, multi-objectives optimization still needs to be conducted for the gaskets to decrease the stress value further to the yield stress. Four gasket's structure parameters and three bearings' peak-peak stress are served as the four optimization variables and three objectives, respectively. Optimized Latin hypercube design is used for generating sample points, and Kriging model selected according to estimation result can establish the relationship between the variables and objec-tives, representing the simulation which is time-consuming. Accordingly, two optimization algorithms work out the Pareto solutions, from which the best solutions are selected, and verified by the simulation to determine the gaskets optimized structure parameters. It can be concluded that the simulation and optimization method based on these components is effective and efficient.     

Visual SLAM in dynamic environments based on object detection

A great number of visual simultaneous localization and mapping (VSLAM) systems need to assume static features in the environment. However, moving objects can vastly impair the performance of a VSLAM system which relies on the static-world assumption. To cope with this challenging topic, a real-time and robust VSLAM system based on ORB-SLAM2 for dynamic environments was proposed. To reduce the influence of dynamic content, we incorporate the deep-learning-based object detection method in the visual odometry, then the dynamic object probability model is added to raise the efficiency of object detection deep neural network and enhance the real-time performance of our system. Experiment with both on the TUM and KITTI benchmark dataset, as well as in a real-world environment, the results clarify that our method can significantly reduce the tracking error or drift, enhance the robustness, accuracy and stability of the VSLAM system in dynamic scenes.